import fs from 'fs'
import url from 'url'
import postcss from 'postcss'
import dlv from 'dlv'
import selectorParser from 'postcss-selector-parser'
import transformThemeValue from '../util/transformThemeValue'
import parseObjectStyles from '../util/parseObjectStyles'
import prefixSelector from '../util/prefixSelector'
import isPlainObject from '../util/isPlainObject'
import escapeClassName from '../util/escapeClassName'
import nameClass, { formatClass } from '../util/nameClass'
import { coerceValue } from '../util/pluginUtils'
import bigSign from '../util/bigSign'
import { variantPlugins, corePlugins } from '../corePlugins'
import * as sharedState from './sharedState'
import { env } from './sharedState'
import { toPath } from '../util/toPath'
import log from '../util/log'
import negateValue from '../util/negateValue'
import isValidArbitraryValue from '../util/isValidArbitraryValue'
import { generateRules } from './generateRules'
function prefix(context, selector) {
let prefix = context.tailwindConfig.prefix
return typeof prefix === 'function' ? prefix(selector) : prefix + selector
}
function parseVariantFormatString(input) {
if (input.includes('{')) {
if (!isBalanced(input)) throw new Error(`Your { and } are unbalanced.`)
return input
.split(/{(.*)}/gim)
.flatMap((line) => parseVariantFormatString(line))
.filter(Boolean)
}
return [input.trim()]
}
function isBalanced(input) {
let count = 0
for (let char of input) {
if (char === '{') {
count++
} else if (char === '}') {
if (--count < 0) {
return false // unbalanced
}
}
}
return count === 0
}
function insertInto(list, value, { before = [] } = {}) {
before = [].concat(before)
if (before.length <= 0) {
list.push(value)
return
}
let idx = list.length - 1
for (let other of before) {
let iidx = list.indexOf(other)
if (iidx === -1) continue
idx = Math.min(idx, iidx)
}
list.splice(idx, 0, value)
}
function parseStyles(styles) {
if (!Array.isArray(styles)) {
return parseStyles([styles])
}
return styles.flatMap((style) => {
let isNode = !Array.isArray(style) && !isPlainObject(style)
return isNode ? style : parseObjectStyles(style)
})
}
function getClasses(selector) {
let parser = selectorParser((selectors) => {
let allClasses = []
selectors.walkClasses((classNode) => {
allClasses.push(classNode.value)
})
return allClasses
})
return parser.transformSync(selector)
}
function extractCandidates(node, state = { containsNonOnDemandable: false }, depth = 0) {
let classes = []
// Handle normal rules
if (node.type === 'rule') {
for (let selector of node.selectors) {
let classCandidates = getClasses(selector)
// At least one of the selectors contains non-"on-demandable" candidates.
if (classCandidates.length === 0) {
state.containsNonOnDemandable = true
}
for (let classCandidate of classCandidates) {
classes.push(classCandidate)
}
}
}
// Handle at-rules (which contains nested rules)
else if (node.type === 'atrule') {
node.walkRules((rule) => {
for (let classCandidate of rule.selectors.flatMap((selector) =>
getClasses(selector, state, depth + 1)
)) {
classes.push(classCandidate)
}
})
}
if (depth === 0) {
return [state.containsNonOnDemandable || classes.length === 0, classes]
}
return classes
}
function withIdentifiers(styles) {
return parseStyles(styles).flatMap((node) => {
let nodeMap = new Map()
let [containsNonOnDemandableSelectors, candidates] = extractCandidates(node)
// If this isn't "on-demandable", assign it a universal candidate to always include it.
if (containsNonOnDemandableSelectors) {
candidates.unshift(sharedState.NOT_ON_DEMAND)
}
// However, it could be that it also contains "on-demandable" candidates.
// E.g.: `span, .foo {}`, in that case it should still be possible to use
// `@apply foo` for example.
return candidates.map((c) => {
if (!nodeMap.has(node)) {
nodeMap.set(node, node)
}
return [c, nodeMap.get(node)]
})
})
}
function buildPluginApi(tailwindConfig, context, { variantList, variantMap, offsets, classList }) {
function getConfigValue(path, defaultValue) {
return path ? dlv(tailwindConfig, path, defaultValue) : tailwindConfig
}
function applyConfiguredPrefix(selector) {
return prefixSelector(tailwindConfig.prefix, selector)
}
function prefixIdentifier(identifier, options) {
if (identifier === sharedState.NOT_ON_DEMAND) {
return sharedState.NOT_ON_DEMAND
}
if (!options.respectPrefix) {
return identifier
}
return context.tailwindConfig.prefix + identifier
}
return {
addVariant(variantName, variantFunctions, options = {}) {
variantFunctions = [].concat(variantFunctions).map((variantFunction) => {
if (typeof variantFunction !== 'string') {
// Safelist public API functions
return ({ modifySelectors, container, separator }) => {
return variantFunction({ modifySelectors, container, separator })
}
}
variantFunction = variantFunction
.replace(/\n+/g, '')
.replace(/\s{1,}/g, ' ')
.trim()
let fns = parseVariantFormatString(variantFunction)
.map((str) => {
if (!str.startsWith('@')) {
return ({ format }) => format(str)
}
let [, name, params] = /@(.*?) (.*)/g.exec(str)
return ({ wrap }) => wrap(postcss.atRule({ name, params }))
})
.reverse()
return (api) => {
for (let fn of fns) {
fn(api)
}
}
})
insertInto(variantList, variantName, options)
variantMap.set(variantName, variantFunctions)
},
postcss,
prefix: applyConfiguredPrefix,
e: escapeClassName,
config: getConfigValue,
theme(path, defaultValue) {
const [pathRoot, ...subPaths] = toPath(path)
const value = getConfigValue(['theme', pathRoot, ...subPaths], defaultValue)
return transformThemeValue(pathRoot)(value)
},
corePlugins: (path) => {
if (Array.isArray(tailwindConfig.corePlugins)) {
return tailwindConfig.corePlugins.includes(path)
}
return getConfigValue(['corePlugins', path], true)
},
variants: () => {
// Preserved for backwards compatibility but not used in v3.0+
return []
},
addUserCss(userCss) {
for (let [identifier, rule] of withIdentifiers(userCss)) {
let offset = offsets.user++
if (!context.candidateRuleMap.has(identifier)) {
context.candidateRuleMap.set(identifier, [])
}
context.candidateRuleMap.get(identifier).push([{ sort: offset, layer: 'user' }, rule])
}
},
addBase(base) {
for (let [identifier, rule] of withIdentifiers(base)) {
let prefixedIdentifier = prefixIdentifier(identifier, {})
let offset = offsets.base++
if (!context.candidateRuleMap.has(prefixedIdentifier)) {
context.candidateRuleMap.set(prefixedIdentifier, [])
}
context.candidateRuleMap
.get(prefixedIdentifier)
.push([{ sort: offset, layer: 'base' }, rule])
}
},
/**
* @param {string} group
* @param {Record<string, string | string[]>} declarations
*/
addDefaults(group, declarations) {
const groups = {
[`@defaults ${group}`]: declarations,
}
for (let [identifier, rule] of withIdentifiers(groups)) {
let prefixedIdentifier = prefixIdentifier(identifier, {})
if (!context.candidateRuleMap.has(prefixedIdentifier)) {
context.candidateRuleMap.set(prefixedIdentifier, [])
}
context.candidateRuleMap
.get(prefixedIdentifier)
.push([{ sort: offsets.base++, layer: 'defaults' }, rule])
}
},
addComponents(components, options) {
let defaultOptions = {
respectPrefix: true,
respectImportant: false,
}
options = Object.assign({}, defaultOptions, Array.isArray(options) ? {} : options)
for (let [identifier, rule] of withIdentifiers(components)) {
let prefixedIdentifier = prefixIdentifier(identifier, options)
classList.add(prefixedIdentifier)
if (!context.candidateRuleMap.has(prefixedIdentifier)) {
context.candidateRuleMap.set(prefixedIdentifier, [])
}
context.candidateRuleMap
.get(prefixedIdentifier)
.push([{ sort: offsets.components++, layer: 'components', options }, rule])
}
},
addUtilities(utilities, options) {
let defaultOptions = {
respectPrefix: true,
respectImportant: true,
}
options = Object.assign({}, defaultOptions, Array.isArray(options) ? {} : options)
for (let [identifier, rule] of withIdentifiers(utilities)) {
let prefixedIdentifier = prefixIdentifier(identifier, options)
classList.add(prefixedIdentifier)
if (!context.candidateRuleMap.has(prefixedIdentifier)) {
context.candidateRuleMap.set(prefixedIdentifier, [])
}
context.candidateRuleMap
.get(prefixedIdentifier)
.push([{ sort: offsets.utilities++, layer: 'utilities', options }, rule])
}
},
matchUtilities: function (utilities, options) {
let defaultOptions = {
respectPrefix: true,
respectImportant: true,
}
options = { ...defaultOptions, ...options }
let offset = offsets.utilities++
for (let identifier in utilities) {
let prefixedIdentifier = prefixIdentifier(identifier, options)
let rule = utilities[identifier]
classList.add([prefixedIdentifier, options])
function wrapped(modifier, { isOnlyPlugin }) {
let { type = 'any' } = options
type = [].concat(type)
let [value, coercedType] = coerceValue(type, modifier, options, tailwindConfig)
if (value === undefined) {
return []
}
if (!type.includes(coercedType) && !isOnlyPlugin) {
return []
}
if (!isValidArbitraryValue(value)) {
return []
}
let ruleSets = []
.concat(rule(value))
.filter(Boolean)
.map((declaration) => ({
[nameClass(identifier, modifier)]: declaration,
}))
return ruleSets
}
let withOffsets = [{ sort: offset, layer: 'utilities', options }, wrapped]
if (!context.candidateRuleMap.has(prefixedIdentifier)) {
context.candidateRuleMap.set(prefixedIdentifier, [])
}
context.candidateRuleMap.get(prefixedIdentifier).push(withOffsets)
}
},
matchComponents: function (components, options) {
let defaultOptions = {
respectPrefix: true,
respectImportant: false,
}
options = { ...defaultOptions, ...options }
let offset = offsets.components++
for (let identifier in components) {
let prefixedIdentifier = prefixIdentifier(identifier, options)
let rule = components[identifier]
classList.add([prefixedIdentifier, options])
function wrapped(modifier, { isOnlyPlugin }) {
let { type = 'any' } = options
type = [].concat(type)
let [value, coercedType] = coerceValue(type, modifier, options, tailwindConfig)
if (value === undefined) {
return []
}
if (!type.includes(coercedType)) {
if (isOnlyPlugin) {
log.warn([
`Unnecessary typehint \`${coercedType}\` in \`${identifier}-${modifier}\`.`,
`You can safely update it to \`${identifier}-${modifier.replace(
coercedType + ':',
''
)}\`.`,
])
} else {
return []
}
}
if (!isValidArbitraryValue(value)) {
return []
}
let ruleSets = []
.concat(rule(value))
.filter(Boolean)
.map((declaration) => ({
[nameClass(identifier, modifier)]: declaration,
}))
return ruleSets
}
let withOffsets = [{ sort: offset, layer: 'components', options }, wrapped]
if (!context.candidateRuleMap.has(prefixedIdentifier)) {
context.candidateRuleMap.set(prefixedIdentifier, [])
}
context.candidateRuleMap.get(prefixedIdentifier).push(withOffsets)
}
},
}
}
let fileModifiedMapCache = new WeakMap()
export function getFileModifiedMap(context) {
if (!fileModifiedMapCache.has(context)) {
fileModifiedMapCache.set(context, new Map())
}
return fileModifiedMapCache.get(context)
}
function trackModified(files, fileModifiedMap) {
let changed = false
for (let file of files) {
if (!file) continue
let parsed = url.parse(file)
let pathname = parsed.hash ? parsed.href.replace(parsed.hash, '') : parsed.href
pathname = parsed.search ? pathname.replace(parsed.search, '') : pathname
let newModified = fs.statSync(decodeURIComponent(pathname), { throwIfNoEntry: false })?.mtimeMs
if (!newModified) {
// It could happen that a file is passed in that doesn't exist. E.g.:
// postcss-cli will provide you a fake path when reading from stdin. This
// path then looks like /path-to-your-project/stdin In that case we just
// want to ignore it and don't track changes at all.
continue
}
if (!fileModifiedMap.has(file) || newModified > fileModifiedMap.get(file)) {
changed = true
}
fileModifiedMap.set(file, newModified)
}
return changed
}
function extractVariantAtRules(node) {
node.walkAtRules((atRule) => {
if (['responsive', 'variants'].includes(atRule.name)) {
extractVariantAtRules(atRule)
atRule.before(atRule.nodes)
atRule.remove()
}
})
}
function collectLayerPlugins(root) {
let layerPlugins = []
root.each((node) => {
if (node.type === 'atrule' && ['responsive', 'variants'].includes(node.name)) {
node.name = 'layer'
node.params = 'utilities'
}
})
// Walk @layer rules and treat them like plugins
root.walkAtRules('layer', (layerRule) => {
extractVariantAtRules(layerRule)
if (layerRule.params === 'base') {
for (let node of layerRule.nodes) {
layerPlugins.push(function ({ addBase }) {
addBase(node, { respectPrefix: false })
})
}
layerRule.remove()
} else if (layerRule.params === 'components') {
for (let node of layerRule.nodes) {
layerPlugins.push(function ({ addComponents }) {
addComponents(node, { respectPrefix: false })
})
}
layerRule.remove()
} else if (layerRule.params === 'utilities') {
for (let node of layerRule.nodes) {
layerPlugins.push(function ({ addUtilities }) {
addUtilities(node, { respectPrefix: false })
})
}
layerRule.remove()
}
})
root.walkRules((rule) => {
// At this point it is safe to include all the left-over css from the
// user's css file. This is because the `@tailwind` and `@layer` directives
// will already be handled and will be removed from the css tree.
layerPlugins.push(function ({ addUserCss }) {
addUserCss(rule, { respectPrefix: false })
})
})
return layerPlugins
}
function resolvePlugins(context, root) {
let corePluginList = Object.entries({ ...variantPlugins, ...corePlugins })
.map(([name, plugin]) => {
if (!context.tailwindConfig.corePlugins.includes(name)) {
return null
}
return plugin
})
.filter(Boolean)
let userPlugins = context.tailwindConfig.plugins.map((plugin) => {
if (plugin.__isOptionsFunction) {
plugin = plugin()
}
return typeof plugin === 'function' ? plugin : plugin.handler
})
let layerPlugins = collectLayerPlugins(root)
// TODO: This is a workaround for backwards compatibility, since custom variants
// were historically sorted before screen/stackable variants.
let beforeVariants = [
variantPlugins['pseudoElementVariants'],
variantPlugins['pseudoClassVariants'],
]
let afterVariants = [
variantPlugins['directionVariants'],
variantPlugins['reducedMotionVariants'],
variantPlugins['darkVariants'],
variantPlugins['printVariant'],
variantPlugins['screenVariants'],
variantPlugins['orientationVariants'],
]
return [...corePluginList, ...beforeVariants, ...userPlugins, ...afterVariants, ...layerPlugins]
}
function registerPlugins(plugins, context) {
let variantList = []
let variantMap = new Map()
let offsets = {
defaults: 0n,
base: 0n,
components: 0n,
utilities: 0n,
user: 0n,
}
let classList = new Set()
let pluginApi = buildPluginApi(context.tailwindConfig, context, {
variantList,
variantMap,
offsets,
classList,
})
for (let plugin of plugins) {
if (Array.isArray(plugin)) {
for (let pluginItem of plugin) {
pluginItem(pluginApi)
}
} else {
plugin?.(pluginApi)
}
}
let highestOffset = ((args) => args.reduce((m, e) => (e > m ? e : m)))([
offsets.base,
offsets.defaults,
offsets.components,
offsets.utilities,
offsets.user,
])
let reservedBits = BigInt(highestOffset.toString(2).length)
// A number one less than the top range of the highest offset area
// so arbitrary properties are always sorted at the end.
context.arbitraryPropertiesSort = ((1n << reservedBits) << 0n) - 1n
context.layerOrder = {
defaults: (1n << reservedBits) << 0n,
base: (1n << reservedBits) << 1n,
components: (1n << reservedBits) << 2n,
utilities: (1n << reservedBits) << 3n,
user: (1n << reservedBits) << 4n,
}
reservedBits += 5n
let offset = 0
context.variantOrder = new Map(
variantList
.map((variant, i) => {
let variantFunctions = variantMap.get(variant).length
let bits = (1n << BigInt(i + offset)) << reservedBits
offset += variantFunctions - 1
return [variant, bits]
})
.sort(([, a], [, z]) => bigSign(a - z))
)
context.minimumScreen = [...context.variantOrder.values()].shift()
// Build variantMap
for (let [variantName, variantFunctions] of variantMap.entries()) {
let sort = context.variantOrder.get(variantName)
context.variantMap.set(
variantName,
variantFunctions.map((variantFunction, idx) => [sort << BigInt(idx), variantFunction])
)
}
let safelist = (context.tailwindConfig.safelist ?? []).filter(Boolean)
if (safelist.length > 0) {
let checks = []
for (let value of safelist) {
if (typeof value === 'string') {
context.changedContent.push({ content: value, extension: 'html' })
continue
}
if (value instanceof RegExp) {
log.warn('root-regex', [
'Regular expressions in `safelist` work differently in Tailwind CSS v3.0.',
'Update your `safelist` configuration to eliminate this warning.',
'https://tailwindcss.com/docs/content-configuration#safelisting-classes',
])
continue
}
checks.push(value)
}
if (checks.length > 0) {
let patternMatchingCount = new Map()
let prefixLength = context.tailwindConfig.prefix.length
for (let util of classList) {
let utils = Array.isArray(util)
? (() => {
let [utilName, options] = util
let values = Object.keys(options?.values ?? {})
let classes = values.map((value) => formatClass(utilName, value))
if (options?.supportsNegativeValues) {
// This is the normal negated version
// e.g. `-inset-1` or `-tw-inset-1`
classes = [...classes, ...classes.map((cls) => '-' + cls)]
// This is the negated version *after* the prefix
// e.g. `tw--inset-1`
// The prefix is already attached to util name
// So we add the negative after the prefix
classes = [
...classes,
...classes.map(
(cls) => cls.slice(0, prefixLength) + '-' + cls.slice(prefixLength)
),
]
}
return classes
})()
: [util]
for (let util of utils) {
for (let { pattern, variants = [] } of checks) {
// RegExp with the /g flag are stateful, so let's reset the last
// index pointer to reset the state.
pattern.lastIndex = 0
if (!patternMatchingCount.has(pattern)) {
patternMatchingCount.set(pattern, 0)
}
if (!pattern.test(util)) continue
patternMatchingCount.set(pattern, patternMatchingCount.get(pattern) + 1)
context.changedContent.push({ content: util, extension: 'html' })
for (let variant of variants) {
context.changedContent.push({
content: variant + context.tailwindConfig.separator + util,
extension: 'html',
})
}
}
}
}
for (let [regex, count] of patternMatchingCount.entries()) {
if (count !== 0) continue
log.warn([
`The safelist pattern \`${regex}\` doesn't match any Tailwind CSS classes.`,
'Fix this pattern or remove it from your `safelist` configuration.',
'https://tailwindcss.com/docs/content-configuration#safelisting-classes',
])
}
}
}
// A list of utilities that are used by certain Tailwind CSS utilities but
// that don't exist on their own. This will result in them "not existing" and
// sorting could be weird since you still require them in order to make the
// host utitlies work properly. (Thanks Biology)
let parasiteUtilities = new Set([prefix(context, 'group'), prefix(context, 'peer')])
context.getClassOrder = function getClassOrder(classes) {
let sortedClassNames = new Map()
for (let [sort, rule] of generateRules(new Set(classes), context)) {
if (sortedClassNames.has(rule.raws.tailwind.candidate)) continue
sortedClassNames.set(rule.raws.tailwind.candidate, sort)
}
return classes.map((className) => {
let order = sortedClassNames.get(className) ?? null
if (order === null && parasiteUtilities.has(className)) {
// This will make sure that it is at the very beginning of the
// `components` layer which technically means 'before any
// components'.
order = context.layerOrder.components
}
return [className, order]
})
}
// Generate a list of strings for autocompletion purposes, e.g.
// ['uppercase', 'lowercase', ...]
context.getClassList = function getClassList() {
let output = []
for (let util of classList) {
if (Array.isArray(util)) {
let [utilName, options] = util
let negativeClasses = []
for (let [key, value] of Object.entries(options?.values ?? {})) {
output.push(formatClass(utilName, key))
if (options?.supportsNegativeValues && negateValue(value)) {
negativeClasses.push(formatClass(utilName, `-${key}`))
}
}
output.push(...negativeClasses)
} else {
output.push(util)
}
}
return output
}
}
export function createContext(tailwindConfig, changedContent = [], root = postcss.root()) {
let context = {
disposables: [],
ruleCache: new Set(),
classCache: new Map(),
applyClassCache: new Map(),
notClassCache: new Set(),
postCssNodeCache: new Map(),
candidateRuleMap: new Map(),
tailwindConfig,
changedContent: changedContent,
variantMap: new Map(),
stylesheetCache: null,
}
let resolvedPlugins = resolvePlugins(context, root)
registerPlugins(resolvedPlugins, context)
return context
}
let contextMap = sharedState.contextMap
let configContextMap = sharedState.configContextMap
let contextSourcesMap = sharedState.contextSourcesMap
export function getContext(
root,
result,
tailwindConfig,
userConfigPath,
tailwindConfigHash,
contextDependencies
) {
let sourcePath = result.opts.from
let isConfigFile = userConfigPath !== null
env.DEBUG && console.log('Source path:', sourcePath)
let existingContext
if (isConfigFile && contextMap.has(sourcePath)) {
existingContext = contextMap.get(sourcePath)
} else if (configContextMap.has(tailwindConfigHash)) {
let context = configContextMap.get(tailwindConfigHash)
contextSourcesMap.get(context).add(sourcePath)
contextMap.set(sourcePath, context)
existingContext = context
}
// If there's already a context in the cache and we don't need to
// reset the context, return the cached context.
if (existingContext) {
let contextDependenciesChanged = trackModified(
[...contextDependencies],
getFileModifiedMap(existingContext)
)
if (!contextDependenciesChanged) {
return [existingContext, false]
}
}
// If this source is in the context map, get the old context.
// Remove this source from the context sources for the old context,
// and clean up that context if no one else is using it. This can be
// called by many processes in rapid succession, so we check for presence
// first because the first process to run this code will wipe it out first.
if (contextMap.has(sourcePath)) {
let oldContext = contextMap.get(sourcePath)
if (contextSourcesMap.has(oldContext)) {
contextSourcesMap.get(oldContext).delete(sourcePath)
if (contextSourcesMap.get(oldContext).size === 0) {
contextSourcesMap.delete(oldContext)
for (let [tailwindConfigHash, context] of configContextMap) {
if (context === oldContext) {
configContextMap.delete(tailwindConfigHash)
}
}
for (let disposable of oldContext.disposables.splice(0)) {
disposable(oldContext)
}
}
}
}
env.DEBUG && console.log('Setting up new context...')
let context = createContext(tailwindConfig, [], root)
trackModified([...contextDependencies], getFileModifiedMap(context))
// ---
// Update all context tracking state
configContextMap.set(tailwindConfigHash, context)
contextMap.set(sourcePath, context)
if (!contextSourcesMap.has(context)) {
contextSourcesMap.set(context, new Set())
}
contextSourcesMap.get(context).add(sourcePath)
return [context, true]
}